Antibiotic agents

ABSTRACT

Compounds having the formula ##STR1## wherein R and R 1  may be H or COCH 3  provided that when R 1  is COCH 3 , R is COCH 3  are described.

DISCLOSURE OF THE INVENTION

The present invention is directed to compounds having the formula ##STR2## wherein R and R¹ are H or COCH₃ provided that when R¹ is COCH₃, R is COCH₃. The compounds have antimicrobial properties and when R and R¹ are H, the compound is especially effective as an antifungal agent. The invention also embraces the use of the latter for controlling mycotic infections.

When R and R¹ are H (Compound I-A) ##STR3## the compound is obtained by the cultivation of Sporormiella australis. Sporormiella australis is the subject of concurrently filed copending application, Ser. No. 07/962,548, filed Oct. 19, 1992 (Attorney Docket No. 18853). When R is --COCH₃ and R¹ is H (Compound IB) or R and R' are --COCH₃ (Compound IC), the compounds may be prepared by the reaction of Compound IA with an appropriate acetylating agent as hereinafter more fully described.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a proton nuclear magnetic resonance spectrum for Compound IA.

FIG. 2 is a proton nuclear magnetic resonance spectrum for Compound IB.

FIG. 3 is a proton nuclear magnetic resonance spectrum for Compound IC.

The compounds are light-colored solids characterized by the following spectral properties.

ULTRAVIOLET SPECTRAL DATA of Compound IA

At 25 μg/ml in MeOH λ_(max) : 275 nm (ε=13,100)

At 25 μg/ml in MeOH+20 μl 1.0N NaOH), λ_(max) : 207 nm, 287 nm (ε=17,300), 306 nm (ε=19,000).

At 25 μg/ml is MeOH+20 μl 1.0N HCl) λ_(max) : 276 nm (ε=17,300)

INFRARED SPECTRAL DATA of Compound IA

2929, 2797, 1723 (C═O), 1666 (C═O), 1630 (C═O), 1460, 1398, 1176, 1037 cm⁻¹

MASS SPECTRAL DATA

Mass spectra were recorded on a Finnigan MAT 212 in the electron impact (EI) mode at 90 eV. Exact mass measurements were performed at high resolution (HR-EI) using perfluorokerosene (PFK) as internal standard.

Compound IA has the molecular weight 408 (Calcd for C₂₃ H₃₆ O₆ 408.2512; found 408.2515)

Compound IB (R═COCH₃, R¹ ═H) has the molecular weight 534 (Calcd for C₂₉ H₄₂ O₉ 534.2829; found 534.2832).

Compound IC (R and R¹ ═COCH₃) has the molecular weight 576 (Calcd for C₃₁ H₄₄ O₁₀ 576.2935; found 576.2946).

NMR SPECTRAL DATA ¹³ C NMR Spectra

The ¹³ C NMR spectra of Compound IA, IB and IC were recorded in CD₂ Cl₂ at 125 MHz on a Varian Unity 500 NMR spectrometer at ambient and low temperature. Because of exchange-broadening processes at ambient temperature, several resonances in Compound IA were not observed. Similarly two were missing in the triacetate (Compound IB) whereas all were observed in the tetraacetate (Compound IC) with broadening exhibited by some resonances (indicated below by asterisk). At -50° C., Compound IA displayed multiple equilibria including one predominant conformer having 23 resonances. The solution spectra of the triacetate (Compound IB) and tetraacetate (Compound IC) at 25° C., showed only two conformer populations in the ratio of ca 7:5 and 3:1, respectively.

Resonances of major and minor conformers (latter in parentheses) are listed. Chemical shifts are given in ppm relative to tetramethylsilane (TMS) at zero ppm using the solvent peak at 53.8 ppm as internal standard.

¹³ C NMR Chemical Shifts of Compound IA (CD₂ Cl₂ ; 23° C.; one apparent conformer): 14.2, 17.3, 17.7, 23.0, 28.4, 29.4, 32.2, 34.2, 35.7, 37.2, 44.8, 53.4, 68.0, 71.0, 102.2, 145.0, 194.1 ppm.

Only 17 out of 23 carbons are observed. The other 6 are exchange-broadened.

¹³ C NMR Chemical Shifts of Compound IA (CD₂ Cl₂ ; -50° C.; multiple equilibria; one predominant conformer): 13.0, 14.0, 16.6, 17.4, 22.7, 27.8, 29.0, 31.8, 33.3, 33.7, 34.7, 36.2, 43.7, 47.4, 53.2, 67.3, 70.0, 101.6, 139.6, 144.5, 166.4, 193.6, 207.6 ppm.

The carbon count of 23 is in agreement with the molecular formula C₂₃ H₃₆ O₆ derived by HRMS.

¹³ C NMR Chemical Shifts of Compound IB (Triacetate) (CD₂ Cl₂ ; -25° C.; ca 7:5 conformer mixture): 13.3 (14.2), 14.02 (14.06), 17.34 (17.38), 18.9 (18.5), 20.3 (20.3), 20.7 (20.7) (2x), 22.71 (22.68), 28.2 (27.9), 28.98 (28.92), 31.6 (31.6), 32.3 (32.1), 33.2 (32.8), 34.4 (34.3), 35.9 (35.4), 39.1 (39.8), 48.78 (48.63), 56.05 (56.23), 67.3 (66.8), 70.85 (71.1), 109.89 (110.08), 143.9 (143.5), 148.43 (148.50), 155.87 (154.8), 167.16 (167.22), 168.9 (168.4), 170.14 (170.11), 189.8 (191.0), 198.08 (198.03) ppm.

All 29 carbons of a major and minor conformer (in parenthesis) are observed in agreement with the molecular formula C₂₉ H₄₂ O₉.

¹³ C NMR Chemical Shifts of Compound IC (Tetraacetate) (CD₂ Cl₂ ; 25° C.; one apparent conformer): 13.8*, 14.1, 17.4, 19.3*, 20.4, 20.7, 20.80, 20.84*, 22.9, 28.6*, 29.4*, 32.0, 33.3, 34.2*, 35.2, 36.5*, 41.2*, 47.9*, 56.4*, 69.7*, 70.8*, 110.5, ˜144.6*, 149.2, ˜155.5*, 167.4, 168.6, 170.1, 170.2*, 187.3, 198.0 ppm.

All 31 carbons are observed in agreement with the molecular formula C₃₁ H₄₄ O₁₀.

¹³ C NMR Chemical Shifts of Compound IC (Tetraacetate) (CD₂ Cl₂ ; -25° C.; ca 3:1 conformer mixture): 13.4 (14.3), 14.02 (14.06), 17.05 (17.16), 18.9 (18.6), 20.22 (20.26), 20.66 (20.66), 20.69 (20.69), 20.71 (20.9), 22.70 (22.73), 28.2 (27.9), 29.1 (29.0), 31.6 (31.6), 32.66 (32.68), 33.6 (33.1), 34.6 (34.4), 36.1 (35.6), 40.4 (40.8), 47.3 (46.8), 55.8 (56.2), 69.2 (68.1), 70.1 (70.5), 109.6 (109.8), 143.9 (143.5), 148.66 (148.64), 155.3 (154.3), 167.15 (167.13), 168.4 (168.3), 169.94 (169.86), 170.2 (169.93), 187.17 (187.14), 197.83 (197.78) ppm.

All 31 carbons of a major and minor conformer (in parenthesis) are observed.

¹ H NMR Spectra

The ¹ H NMR spectra of Compounds IA, IB and IC are seen in FIGS. 1, 2 and 3. The acetate spectra were recorded at 500 MHz in CD₂ Cl₂ on a Varian Unity 500 NMR spectrometer at -25° C. The spectrum of Compound IA was recorded in CD₃ COOD at 25° C. Chemical shifts are shown in ppm relative to TMS at zero ppm using the solvent peaks at δ5.32 (CD₂ Cl₂) and δ2.03 (CD₃ COOD) as internal standards.

The compounds of this invention have antimicrobial properties. Compound IA is especially useful as an antifungal agent against both filamentous fungi and yeasts. It is most particularly useful against organisms causing pathogenic mycotic infections such as Candida albicans, Candida guilliermondii, Candida parapsilosis, Cryptococcus neoformans, Candida pseudotropicalis, Candida tropicalis, Saccharomyces cerevisiae, Aspergillus flavus, Aspergillus fumigatus and the like. The properties may be effectively utilized by administering compositions containing an antifungal amount of Compound IA to an area, object or subject, on or in which fungi are to be controlled. Thus, compositions containing an antifungally effective amount of Compound IA and their use for the control of fungi are aspects of the present invention. An especially preferred aspect of the present invention are compositions in a pharmaceutically acceptable carrier and their use for the control of mycotic infections by administering a therapeutically effective amount of the compound. Antimicrobial properties embrace activity against bacteria, particularly Bacilli. However, the most highly useful antimicrobial activity is that of Compound IA against fungi.

The primary compound of the present invention, Compound I-A, i.e., R and R¹ are H, is a natural product and is conveniently produced by the cultivation of Sporormiella australis MF 5672 in the culture collection of Merck & Co., Rahway, N.J. and which has been deposited under the Budapest Treaty in the culture collection of the American Type Culture Collection at 12301 Parklawn Drive, Rockville, Md. 20852, and assigned accession number, ATCC 74157.

The fungus which was isolated from moose dung and identified as Sporormiella australis has colonial and morphological properties as follows:

Colonies on oatmeal agar (Difco) at 20° C., 95% relative humidity, 12 hour photoperiod under fluorescent light, attaining 34-37 mm in 14 days, appressed to felty of sparsely floccose at the center, with margin even and submerged, dry, dull, pale gray to dark olivaceous gray, Pale Smoke Gray, Deep Grayish Olive, Iron Gray, Dark Olive-Black (capitalized color names from Ridgway, R. 1912. Color Standards and Nomenclature, Washington, D.C.), often developing conspicuous lightly pigmented sectors that originate from inoculum source, with sectors pale olivaceous yellow to pinkish olive, Avellaneous, Deep Olive Buff, reverse dull olivaceous gray to gray, pinkish gray or yellow in the sectors. Exudates and odors absent.

Colonies on malt extract agar (Difco), same conditions, attaining 26-28 mm in 14 days, appressed to felty, becoming sparsely floccose, dry, dull, with margin even, submerged, white, pale gray to dull olivaceous gray, Pale Smoke Gray, Smoke Gray, Grayish Olive, developing unpigmented sectors, reverse dark gray to nearly black, with yellow to grayish sectors. Exudates and odors absent.

Colonies on cornmeal agar (Difco), same conditions, attaining 8-12 mm in 14 days, similar in color and appearance to colonies on malt yeast extract agar, but more translucent.

Colonies of this strain, as well as those of other Sporormiella spp., have a strong tendency to develop aberrant and attenuated sectors, especially after repeated transfer. These sectors are generally paler in color and have lost or have reduced their ability to differentiate stromata and/or pseudothecia.

Ascoma a pseudothecium. Pseudothecia evident in 10-21 days, maturing in 4-5 weeks on oatmeal agar. Pseudothecia single, densely gregarious, or confluent, embedded, with upper 10-60% protruding above the surface, 100-400 μm in diameter, globose to subglobose, with a minute apical papilla, non-ostiolate, glabrous, dull, black. In culture, pseudothecia often become moribund and fail to fully mature with 4-8 weeks. Often development is arrested with only the formation of asci initials and paraphyses. Peridium thin, 1-3 cells thick, a textura angularis. Peridial cells isodiametric, 3-8 μm in diameter, gray to dark olivaceous gray in KOH. Asci abundant, arising from the base of the psuedothecial cavity, bitunicate, 8-spored, cylindrical, straight to slightly curved, with broad rounded apex, 110-160×15-21 μm, tapering abruptly at the base into a short stalk, with basal stalk 5-10 μm long. Paraphyses abundant, interspersed among asci, filamentous, 1-3 μm wide, septate, approximately equal in length with asci. Ascospores biseriate within the ascus, 32-42×6-9 μm, 4-celled, constricted at the septa, with terminal cells with rounded apices, central cells cylindrical to doliform, each cell with an thin, faint lateral germ slit, with entire ascospore surrounded by a thin, refractive, hyaline sheath, with cells often separating when removed from ascus, dark olivaceous or brownish gray in KOH.

The production of Compound IA may be carried out by cultivating S. australis ATCC 74157 in a suitable nutrient medium under conditions hereinafter described until a substantial amount of antifungal activity is detected in the fermentation broth, harvesting by extracting the active components from the mycelial growth with a suitable solvent, concentrating the solution containing the desired component, then subjecting the concentrated material to chromatographic separation to isolate Compound I-A from the other metabolites also present in the cultivation medium.

Broadly, the sources of carbon include glucose, fructose, mannose, maltose, galactose, mannitol and glycerol, other sugars and sugar alcohols, starches and other carbohydrates, or carbohydrate derivatives such as dextran, cerelose, as well as complex nutrients such as oat flour, corn meal, millet, corn and the like. The exact quantity of the carbon source which is utilized in the medium will depend, in part, upon the other ingredients in the medium, but it is usually found that an amount of carbohydrate between 0.5 and 15 percent by weight of the medium is satisfactory. These carbon sources can be used individually or several such carbon sources may be combined in the same medium. Certain carbon sources are preferred as hereinafter set forth.

The sources of nitrogen include amino acids such as glycine, arginine, threonine, methionine and the like, ammonium salt, as well as complex sources such as yeast hydrolysates, yeast autolysates, yeast cells, tomato paste, soybean meal, casein hydrolysates, yeast extract, corn steep liquors, distillers solubles, cottonseed meal, meat extract, and the like. The various sources of nitrogen can be used alone or in combination in amounts ranging from 0.05 to 5 percent by weight of the medium.

Among the nutrient inorganic salts, which can be incorporated in the culture media are the customary salts capable of yielding sodium, potassium, magnesium, calcium, phosphate, sulfate, chloride, carbonate, and like ions. Also included are trace metals such as cobalt, manganese, iron, molybdenum, zinc, cadmium, and the like.

Representative suitable solid and liquid production media may be seen in the tables which follow. Also included is a representative seed medium.

                  TABLE 1                                                          ______________________________________                                         KF SEED MEDIUM                                                                                Trace Element Mix                                               Component   per liter                                                                               Trace Element Mix                                                                             per liter                                  ______________________________________                                         Corn Steep Liquor                                                                          5      g     FeSO.sub.4.7H.sub.2 O                                                                       1    g                                   Tomato Paste                                                                               40     g     MnSO.sub.4.4H.sub.2 O                                                                       1    g                                   Oat Flour   10     g     CuCl.sub.2.2H.sub.2 O                                                                       25   mg                                  Glucose     10     g     CaCl.sub.2   100  mg                                  Trace Element Mix                                                                          10     ml    H.sub.3 BO.sub.3                                                                            56   mg                                                           (NH.sub.4).sub.6 Mo.sub.7 O.sub.24.4H.sub.2                                                 19   mg                                  pH = 6.8                 ZnSO.sub.4.7H.sub.2 O                                                                       200  mg                                  ______________________________________                                    

                  TABLE 2                                                          ______________________________________                                         SOLID FERMENTATION MEDIUM                                                      Production Medium F1                                                                          Amount                                                          Component      (per 250-ml flask)                                              ______________________________________                                         Cracked Corn   10.0         g                                                  Ardamine PH    2.0          mg                                                 KH.sub.2 PO.sub.4                                                                             1.0          mg                                                 MgSO.sub.4.7H.sub.2 O                                                                         1.0          mg                                                 Na Tartrate    1.0          mg                                                 FeSO.sub.4.7H.sub.2 O                                                                         0.1          mg                                                 ZnSO.sub.4.7H.sub.2 O                                                                         0.1          mg                                                 Distilled Water                                                                               10.0         ml                                                 no pH adjustment                                                               ______________________________________                                    

                  TABLE 3                                                          ______________________________________                                         LIQUID MEDIUM                                                                  Medium MOF                                                                                      Amount                                                        Component        (per liter)                                                   ______________________________________                                         D Mannitol       75.0        g                                                 Oat Flour        15.0        g                                                 Fidco Yeast Extract                                                                             5.0         g                                                 L-Glutamic Acid  4.0         g                                                 MES*             16.2        g                                                 Distilled Water  1000        ml                                                pH adjusted to 6.0 with NaOH                                                   ______________________________________                                          *[2(N-morpholino)ethanesulfonic acid] monohydrate (MES)                  

                  TABLE 4                                                          ______________________________________                                         LIQUID MEDIUM                                                                  Medium RG122                                                                                    Amount                                                        Component        (per liter)                                                   ______________________________________                                         D Mannitol       91.0        g                                                 Corn Steep Liquor                                                                               4.0         ml                                                Lard Water       4.0         g                                                 Pectin           10.0        g                                                 KH.sub.2 PO.sub.4                                                                               4.0         g                                                 Tomato Paste     4.0         g                                                 Serine           10.0        g                                                 Peptonized Milk  4.0         g                                                 Peanut Meal      4.0         g                                                 Distilled Water  1000        ml                                                pH adjusted to 7.0 with NaOH                                                   ______________________________________                                    

                  TABLE 5                                                          ______________________________________                                         LIQUID MEDIUM                                                                  Medium KRC                                                                                      Amount                                                        Component        (per liter)                                                   ______________________________________                                         Dextrin (starch) 40.0        g                                                 Distiller Solubles                                                                              7.0         g                                                 Yeast Extract    5.0         g                                                 CoCl.sub.2.6H.sub.2 O                                                                           50.0        mg                                                Beta Cyclodextrin                                                                               10.0        g                                                 Distilled Water  1000        ml                                                pH adjusted to 7.3 with NaOH                                                   ______________________________________                                    

Of the foregoing media, the liquid medium, Medium MOF, was found to give the best yield of Compound IA. In the production of the desired compound, generally, the culture is first grown in a seed medium and the culture growth then used to inoculate a production medium. The production medium may be a solid medium or a liquid medium.

In carrying out the production of Compound IA, frozen mycelia of culture S. australis MF 5672, ATCC 74157 is inoculated into nutrient seed medium at a pH in the range of 5 to 8, preferably pH 7, such as that in Table 1 (KF Seed Medium). The seed flasks are then incubated with agitation at temperatures in the range of from about 15° C. to about 30° C., preferably about 25° C., for a period of from about 2 to 15 days, preferably 3 to 5 days at about 50% relative humidity. When the growth is abundant, usually between 3 to 5 days, the growth may be used to inoculate the production medium for the production of Compound IA.

If appropriate, a second stage fermentation may be carried out in the seed medium for greater production of mycelial mass by inoculating fresh seed medium with a portion of the culture growth and then incubating under similar conditions but for a shortened period. The resulting growth then may be employed to inoculate the production medium which may be solid but is preferably liquid.

When the production is carried out on solid medium, a portion of the seed is used to inoculate the solid medium in a conventional manner and the resulting medium incubated under static conditions preferably at 25° C. and 50 percent relative humidity for 7 to 25 days, preferably 11 to 14 days.

After completion of the cultivation period, as can be determined by HPLC or TLC of the fermentation broth, the product is recovered and thereafter isolated. The secondary metabolites may be extracted from the mycelial growth by shaking at 220 rpm for one hour at 25° C. with either 50 percent aqueous methanol, methanol, ethyl acetate, methyl ethyl ketone or butanol acidified with 0.2 percent trifluoroacetic acid. The mixture is then filtered to remove the solid and to obtain the product in the filtrate. The filtrate is concentrated under reduced pressure to obtain the crude product as residue.

When the fermentation is carried out in a liquid medium, a portion of the seed is used to inoculate the liquid medium in a conventional manner and the resulting medium incubated with agitation, preferably at 25° C. and 50% relative humidity for from 4 to 25 days, preferably 11 to 14 days.

The fermentation broth is acidified to pH 3.0 with sulfuric acid, then an equal volume of ethyl acetate or methyl ethyl ketone is added and the resulting mixture shaken at 220 rpm for 1 hour at 25° C. The organic solvent is removed and the remaining mycelium aqueous phase is reextracted several more times, and the extracts combined and the combined extracts subjected to reduced pressure to obtain Compound IA as residue. Other suitable extraction solvents include ethyl acetate, butanol acidified with 0.2 percent trifluoroacetic acid, acetone and methanol.

The product residue from either solid or liquid fermentation is isolated by chromatography, preferably on silica gel, but also may be on silica based reverse phase, dextran gel, and the like.

In carrying out the isolation, the extract is concentrated to obtain an oil containing product which is then partitioned between a non-polar hydrocarbon and polar alcohol to remove non-polar impurities. Preferred solvents for partitioning are hexanes and methanol. The alcohol extract is concentrated to dryness to obtain crude product which may be purified employing silica gel chromatography and using hexane/ethyl acetate/acetic acid as eluant. The appropriate fractions are then pooled, concentrated and further purified. High speed countercurrent chromatography is found to be useful for further purification. In such method, the impure product is dissolved in equal volumes of the upper phase and lower phase of a solvent system consisting of 7 parts hexanes/3 parts ethyl acetate/5 parts methanol/5 parts aqueous 0.025M K₂ HPO₄ pH 6.9. The sample is applied to the tail of a multilayer coil which has been completely filled with the lower phase and eluted with the upper phase from the tail to the head of the column at a rotation speed of 800 rpm in the forward direction and collecting fractions. The appropriate fractions are pooled to recover the desired product.

Compounds IB where R is --COCH₃ and R¹ is H, and Compound IC where both R and R¹ are COCH₃, may be prepared by the reaction of Compound IA with an appropriate acetylating agent, preferably acetic anhydride. Other acetylating agents such as acetyl halide or activated esters of acetic acid such as 2,4,5-trichlorophenyl ester also may be used. The reaction may be carried out in a solvent such as pyridine. Generally, both the triacetate and tetraacetate are obtained and may be separated by preparative high pressure liquid chromatography.

The acetylation may be carried out by adding acetylating agent to a solution of Compound IA in a solvent such as pyridine and the resulting mixture stirred at room temperature for several hours to obtain a mixture of tri- and tetraacetate of Compound IA. The reaction mixture is concentrated under reduced pressure and the oily residue dissolved in acetonitrile for separation and purification by preparative HPLC. The acetonitrile solution is placed on the column and eluted employing a mobile phase of 0.1 percent H₃ PO₄ in 60% acetonitrile/40% water. Rate of elution of about 20 ml/min at room temperature with detection at 275 nm has been found to be satisfactory. The appropriate fractions then may be pooled, the acetylated product extracted with methylene chloride, dried, and the dried solution concentrated in vacuo to recover the desired product.

The usefulness of Compound IA as an antifungal agent especially as an antimycotic agent may be demonstrated with Compound IA in a broth microdilution assay for the determination of minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) against fungi. In such assay against a panel of fungi selected for their resistance/susceptibility to known compounds, animal virulence, source and clinical importance, Compound I is found to have very high activity. Compound IA was found to be effective at concentrations of about one-tenth of that required by an established antifungal agent amphotericin B. Against certain other organisms even greater effectiveness is exhibited.

In the microbroth dilution assay, microorganisms were selected by streaking a yeast culture on Sabouraud dextrose agar (SDA) incubating for 24-48 hours at 35°-37° C., thereafter selecting 3 to 5 characteristic colonies and transferring to a fresh plate and incubating under similar conditions. From the regrowth, 3 to 5 colonies were selected and suspended in 10 milliliters of YM broth (Difco) and incubated for 4 hours at 35°-37° C. shaking at 225 rpm. The 4 hour broth cultures were adjusted optically to 86% transmission resulting in a concentration of 1-5 ×10⁶ cfu/ml which was further diluted 1:100 in YNBD (yeast nitrogen base with 1% dextrose) to obtain a concentration of 1-5×10⁴ cfu/ml for use as inocula.

The test compound, Compound IA, and control compounds were prepared as stock solutions of 512 μg/ml in 10% DMSO and 75 μl of said solution delivered to each well in column 1 of a 96-well, U-bottomed microtiter plate. The compounds in column 1 were then serially diluted two-fold to yield concentrations from 128 μg/ml to 0.06 μg/ml.

The plates containing the diluted compounds were then inoculated with 75 μl/well of the appropriate microorganism and incubated for 48 hours at 35°-37° C. with MIC (minimum inhibitory concentration) determinations carried out after 24 hours of incubation. Growth and sterility controls for each organism and sterility checks for the compounds also were carried out.

After recording MICs at 24 hours, the microtiter plates were shaken gently to resuspend the cells. A 1.5 μl sample was transferred from each well of the 96-well microtiter plate to a single reservoir inoculum plate containing SDA. The inoculated SDA and corresponding microtiter plates were incubated for 24 hours at 35°-37° C. For Crytococus neoformans, SDA plates were inoculated at 48 hours after recording MICs and incubated 48 hours before reading the MFC. MFC is the lowest concentration of compound at which either no growth or growth of ≦4 colonies occur.

    ______________________________________                                         Minimum Fungicidal Concentration (MFC)                                         (μg/ml)                                                                     Pathogen          Compound IA Control*                                         ______________________________________                                         C. albicans (MY1028)                                                                             0.063       0.5                                              C. albicans (MY1055)                                                                             0.031       0.5                                              C. albicans (MY1750)                                                                             0.125       1                                                C. guillermondii (MY1019)                                                                        <0.015      1                                                C. parapsilosis (MY1010)                                                                         0.125       1                                                C. pseudotropicalis (MY2099)                                                                     <0.015      2                                                C. tropicalis (MY1012)                                                                           <1.015      4                                                C. neoformans (MY1051)                                                                           0.031       1                                                C. neoformans (MY1146)                                                                           0.125       1                                                C. neoformans (MY2061)                                                                           0.015       1                                                S. cerevisiae (MY1976)                                                                           <0.015      1                                                ______________________________________                                          *Amphotericin B                                                          

Compound IA is also useful for inhibiting the growth of filamentous fungi. Such use may be illustrated in the following tests with Aspergillus fumigatus, Aspergillus niger, Aspergillus flavus, Fusarium oxysporum, Rhizomicor miehei, Ustilago zeae and the like.

Inocula for filamentous fungi are prepared by scraping the surface of stock plates maintained on potato dextrose agar with a moistened sterile dacron swab. The spores and mycelia are then suspended in 10 milliliters of sterile potato dextrose broth and adjusted to 70 percent transmission at 660 nm.

The samples to be tested for production of antifungal agent are applied to 6.2 mm. filter paper discs (25 microliter/disc) and air dried at 24° C. When the sample to be tested is crude broth, it may be centrifuged prior to application. The discs bearing the material to be tested are then applied employing sterile conditions to the seeded assay plates and the samples rewet with 25 percent sterile aqueous dimethylsulfoxide (25 μl/disc). The assay plates are then incubated at either 28° C. or 37° C. for 24 hours. Following incubation, the inhibition zones are measured. Growths are also noted as to appearance. Compound IA is seen to effectively inhibit growth of the fungal organisms.

The compounds also have antimicrobial activity against bacteria. Thus, in an assay carried out in a manner similar to that above-described for filamentous fungi, zones of inhibition are noted when Bacillus subtilis is a test organism.

The following examples illustrate the invention but are not to be construed as limiting:

EXAMPLE I ##STR4##

A frozen vegetative mycelia of Sporormiella australis MF 5672 in the culture collection of Merck & Co., in Rahway, N.J. was inoculated into 54 milliliters of KF seed medium (Table 1) in a 250 milliliter unbaffled Erlenmeyer flask. The seed flasks were incubated for three days at 25° C. and 50 percent relative humidity on a rotary shaker with a 5-cm throw at 220 rpm.

Two milliliter portions of the 3-day culture growth were used to inoculate a fermentation production medium, Medium MOF, contained in eighty 250 milliliter flasks and the inoculated media incubated under static conditions at 25° C. and 50 percent relative humidity for 11 days.

After 11 days, 50 milliliters of ethyl acetate was added to each flask and the mixture agitated at 220 rpm for 2 hours at room temperature and thereafter filtered through a celite pad to obtain 25.3 grams of ethyl acetate extract.

The extract was concentrated under reduced pressure to an oil which was then partitioned between 650 milliliters of hexanes solvent and 200 milliliters of methanol. The methanol layer was concentrated to dryness in vacuo to obtain 3.54 grams of crude antibiotic compound (Compound IA) which dissolved to a final volume of 17.7 milliliters in hexane/ethyl acetate containing 1 percent acetic acid. A 15.3 milliliter portion (3.04 grams of Compound IA) was applied to a 377 gram silica gel 60 (0.040-0.063 mm, 230-400 mesh, E. Merck) column, 5 cm×45 cm, which had been equilibrated with hexane/ethyl acetate (3:2) containing 1 percent acetic acid. The column was eluted with the same solution at 15 ml/min and 24 milliliter fractions collected. The product rich fractions were determined by analytical HPLC (Phenomenex Ultracarb 5 ODS 30, 15 cm×4.6 mm, eluted with a mobile phase consisting of 55% acetonitrile/45% aqueous 0.025M K₂ HPO₄ adjusted to pH 6.9 with conc. H₃ PO₄, flow rate 1 ml/min at 55° C., detection at 275 nm).

The crude fraction pool was concentrated in vacuo to 410 milligrams of yellow oil which was then dissolved in 10 milliliters of ethyl acetate. A 3-milliliter portion of this solution was concentrated to dryness and further purified by high speed countercurrent chromatography (using a Countercurrent Chromatograph obtained from P.C. Inc., 11805 Kim Place, Potomac, Md., USA). The sample was dissolved in 2 milliliters of the upper phase and 2 milliliters of the lower phase of a solvent system consisting of 7 parts hexanes/3 parts ethyl acetate/5 parts methanol/5 parts aqueous 0.025M K₂ HPO₄ pH 6.9. The sample was applied to the tail of a #14 analytical multilayer coil (P.C. Inc.) which had been filled completely with the lower phase of the above solvent system. The coil was then eluted with the upper phase of the solvent system at 3 ml/min from the tail to the head of the column, at a rotation speed of 800 rpm in the forward direction collecting 7.5 milliliter fractions. From fractions 53-64 purified, Compound IA amounting to 41 milligrams was obtained.

The Compound IA had the spectral properties previously described.

Compound IA had the following elemental analysis:

Calc. for C₂₃ H₃₆ O₆ 67.65% C, 8.82% H, 0% N, Found 67.31% C, 8.24% H, <0.02% N.

EXAMPLE II Triacetate (IB) and Tetraacetate (IC) of Compound IA ##STR5##

20.4 milligrams of Compound IA was dissolved in 0.5 milliliter of pyridine, and to it was added 0.5 milliliter of acetic anhydride and the resulting mixture was stirred at room temperature for 3.75 hours to obtain acetate products. The reaction mixture was then concentrated to dryness in vacuo. The resulting residue was dissolved in 5 milliliters of acetonitrile and the solution concentrated under reduced pressure. The resulting mixture was dissolved in 1 milliliter of acetonitrile and placed on a preparative HPLC column (Whatman Partisil 10 ODS, 22 mm×25 cm) and eluted employing a mobile phase of 60% acetonitrile containing 0.1% H₃ PO₄ /40% water at 20 ml/min at room temperature with detection at 275 nm to separate the products. Eight milliliter fractions were collected. Fractions 26 to 29 which were found to contain the triacetate were pooled and the pooled fractions extracted with 32 milliliters of methylene chloride. The methylene chloride solution was dried over anhydrous sodium sulfate and the dried solution concentrated to dryness in vacuo to obtain 8 milligrams of the triacetate (Compound IB). Fractions 33 to 36 which were found to contain the tetraacetate were similarly treated to obtain 11 milligrams of the tetraacetate (Compound IC).

EXAMPLE III

1000 compressed tablets each containing 500 milligrams of Compound IA are prepared from the following formulation:

    ______________________________________                                                              Grams                                                     ______________________________________                                         Compound IA             500                                                    Starch                  750                                                    Dibasic calcium phosphate hydrous                                                                     5000                                                    Calcium stearate       2.5                                                     ______________________________________                                    

The finely powdered ingredients are mixed well and granulated with 10 percent starch paste. The granulation is dried and compressed into tablets.

EXAMPLE IV

1000 hard gelatin capsules, each containing 210 milligrams of Compound IA and 290 milligrams of Compound IC of Compounds are prepared from the following formulation:

    ______________________________________                                         Compound              Grams                                                    ______________________________________                                         Compound IA (210) and IC (290)                                                                       500                                                      Starch                250                                                      Lactose               750                                                      Talc                  250                                                      Calcium stearate       10                                                      ______________________________________                                    

A uniform mixture of the ingredients is prepared by blending and used to fill two-piece hard gelatin capsules.

EXAMPLE V

250 milliliters of an injectible solution are prepared by conventional procedures from the following formulation:

    ______________________________________                                         Dextrose            12.5   grams                                               Water               250    milliliters                                         Compound IA         400    milligrams                                          ______________________________________                                    

The ingredients are blended and thereafter sterilized for use.

Isolation of Sporormiella australis

A sample of moose dung was first thoroughly washed with tap water, and about 0.75 gram of the sample were then homogenized in a blender and resuspended in 150 milliliters of sterile distilled water. A 1:10 dilution was made from this suspension, and different volumes (0.1 to 0.5 ml) of both the dilution and the initial suspension were plated onto DPY (dextrose-peptone-yeast extract) plates. DPY medium was of the following composition (per liter):

    ______________________________________                                         Component        Amount                                                        ______________________________________                                         Dextrose         5.0      g                                                    Peptone          1.0      g                                                    Yeast extract    2.0      g                                                    NH.sub.4 OH      1.0      g                                                    K.sub.2 H.sub.2 PO.sub.4                                                                        1.0      g                                                    MgSO.sub.4.7H.sub.2 O                                                                           0.5      g                                                    FeC1.sub.3.6H.sub.2 O                                                                           0.5      ml of 1% soln.                                       oxgall (dried bovine bile)                                                                      5.0      g                                                    ______________________________________                                    

Plates were incubated at 24° C. for 3-7 days, and the growing colonies were transferred to Potato Dextrose Agar (Difco) plates. After incubating the new plates for one week at 24° C., all the cultures isolated from the sample were morphologically compared. Strains were selected for fermentation studies. One of the strains was subsequently designated MF5672 and was used in the fermentation which produced Compound IA. This culture was registered by the American Type Collection as ATCC 74157. 

What is claimed is:
 1. A compound having the formula ##STR6## wherein R and R¹ are H or COCH₃ provided that when R¹ is COCH₃, R is COCH₃.
 2. A compound according to claim 1 wherein R and R¹ are H.
 3. An antifungal composition comprising an antifungal amount of the compound of claim 1 in admixture with a biologically inert carrier.
 4. A composition according to claim 3 in which the carrier is a pharmaceutically acceptable carrier.
 5. A method for controlling fungal growth comprising administering to the site where growth is to be controlled, an antifungally effective amount of a compound of claim
 1. 6. A method for controlling mycotic infections in patients comprising administering a therapeutically effective amount of a compound of claim
 1. 